Transmission



Jah., l, 1 935.

TRANSMISSION Filed June 23, 1933 6 Sheets-Shea?l 1 mmm F mw mw I com. wm. WQ mm. mbw mm Q V A. -WINTHER yEI' AL TRANSMISSIONV Jan. l, 1935.

Filed June 23, 1953 6 Sheets-Sheet 2 Jan. l, 1935-. A WINTHER EAL TRANSMISS ION Filed Jun-e 23, 1953 s s heeis-sneet :s

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l l l WN E@ @i A Jan. 1, 1935. y f

TRANSMISSION Filed June 23, 1933 6 sheets-sheet 4 A WINTHER'Er'AL 1,986,037

A. vwim-HER Erri/u.

Jan. 1, 1935.

TRANSMISSION vFiled June 23, 1933 SVSheetS-Sheet 5 zoErS E .U

Jan. l, 193.5. A W|N1 HER Er AL i 1,986,037

FIG. il.

TRANSMISSION Filed June 23, 1933 6 Sheets-Sheet x 6 22j Hrsg Y Il u y a u.. E l 2 a ny g ,v VPatented` Jan. 1, 1.935

TRANSMISSION `Anthony Winther, Kenosha, Wis., and Martin Phillip Winther, Waukegan, Ill.

Application June 23, 193s, serial Nq. 671289 24 claims. (ci. 'J4- 3365) This invention relates to power transmissions, and with regard to certain more specific features, to manually or automatically operable transmissions adapted particularly for motor vehicles s. the like.

Among the several objects of the invention be noted the provision of a transmission by m and may

eans

of which the mechanical advantage of a constant torque prime mover, with respect tothe variable torque elements driven thereby (such as the wheels of a vehicle) may be quickly rand silently changed over a rangeV of finite steps (four, including reverse, in the present example); the

pro-

vision of a transmission of thev class described which is easily adaptable to Iautomatic operation by an associated system consisting, for example,

of a compressed air control, vacuum control,

draulic control and/or electrical control; the

hy- DIO- vision of a manual or automatic transmission in which any gear, forward or reverse, may be quickly and silently engaged; the provisionrof a simple device of this class having for its primary chanical elements units of known reliability, such as simple gear trains and friction clutches;

and

the provision of a transmission of the class described which shall operate simply, smoothly, without undesirable indication ofthe changes eiected, and one in which the, operation is fool proof and in which said clutches may be opened and closed Without critical discrimination. Other objects will `he in part obvious and in part pointed out hereinafter.

lThe invention accordingly comprises the In the accompanying drawings, in which are.

illustrated several of various possible embodiments of the invention,

Fig. 1 is a longitudinal section showing the primary-mechanical elements of the transmission,

parts thereof4 being shown in side elevation;

Fig. 2 is an enlarged exemplary detail of certain overrunning clutches employed in the construction of Fig. 1;

Fig. 3 is a cross section taken on line 3-3 Fig. 4 is a cross section taken on line 4 4 of 1, the same showing' a reverse gear train;` Fig. 5 is a view `similar' to Fig. 1 butshowing only'certain primary parts which function for low gear operation; Fig. 6 is a view similar to Fig. 5 showing certain primary parts which function for intermediate, or second gear operation; l Fig. 'I is a view similar to Fig. 5'but showing only certain parts functioning for high gear operation and also showing the alternative application of a free-wheeling device, not shown in Fig. 1 but provided for in'vFigs. 5 and 6;

Fig. 8 is a side elevation showing a detail of aninterlocking mechanism;

Fig. 9 is a longitudinal section showing a de- 10 tail of a clutch closing relay or selector unit;

Fig. 10 is a wiring diagram illustrating a sys-A tem for automatically operating the transmission; and, f

Fig. 11 is a view si ar to Fig. 10 showing a 15 modied fragmentary part of Fig. 10.

Similar reference characters indicate corre'- sponding parts throughout the several views of the'drawings.

In order toclarifythe description, the me- 20 chanical elements ofthe transmission will rst be particularizedand thereafter an electrical control will be described whereby the mechanical elements are rendered automatically operable. It is to be understood that the vmechanical ele- 25 ments may be manually controlled if this' be desired, but automatic operation is shown herein. Referring now more particularly to Fig. 1, there is shown at numeral 1 a ilange which is connected to the prime-'mover and will be here- 30 inafter referred to as a.driving element. Bolted i. to theflange 1 is part 6 of a clutch casing which partially serves as a fly wheel for theprime mover. The member 6-has attached thereto a starter gear element 7 whichalso extends in- 35 wardly to form a diaphragm, as shown.

The driven member of the transmission is .indica'ted at numeral 37, said member comprising a flange forY making a coupling to other driven elements, such as the drive shaft of an auto- 40 mobile. The flange 37 is keyed to a quill 36 A supported on bearings 32 and 61 of astationary housing H which otherwise encloses the transmission as a whole. The inner-.end lof the quill 36 constitutes botha driven exterior gear 31 and 4,5

van integral annular coupling gear 30." In Figs. 5

ofan intermediate quilles. Thel quin sais smi-515.`

ported in pilot bearings 71 and 72 within the quill 36 and ilange 1, respectively. The gear 29 may be moved back and forth upon its spline by means of a shifter fork 27.

Spline'drto the left end of the quill 39 is the driven member of a :fixed clutch 4, said clutch having a pressure plate 5. It will be understood that'the pressure plate 5 is -longitudinally mov.

able with respect to the casing 6 but does not rotate with respect thereto and any of the usual peripheral splining or like methods are used to accomplish this result.

springing clutch levers 3 supported at ltheir outer ends by clamping action between the daphragm member 7 and a recess in the case 6 are adapted to force the plate againstthe clutch to close the clutch 4,`.this being accomplished by contact at lugs 200. The clutch levers 3 are normally pressed towards clutch closing position by means of springs 2 reacting fro sockets within the diaphragm 7.

-The levers 3 may be drawn to the right, against the reactions of springs 2, by means of la flange 38 formed with a tube 4l, said tube being slidable on the quill 39 and reaching toward the right where it is threadably engaged by an actuating flange 23. 'I'heiiange 23 may be moved longitudinally on the quill 39 by means of a throw-out bearing 24 operated by a shifter fork 26 keyed to an operating shaft 25. Thus it will be seen that the clutch 4 may be .opened and closed from the operating shaft 25, opening being effected against Athe reaction of springs 2.

A second clutch 10 has its driven member splined at 59 to a sleeve 201 supported in a bearing 40m the diaphragm 7 and in a bearing 22. said bearing 22 being supported in the housing H. The pressure plate 9 of the clutch 10 -is also splined in the usual manner to the extension 58 of case 6and separating springs 8 normally tend to hold the clutch open. The movement of the pressure plate 9 to the right is limited by aseo- Y heads formed by nuts 62. These nuts 62, through suitable washers 204 place a pre-loading upon springs 11 which react between said heads 62 and the pressure plate 9. f

A third pressure -plate 14, also splined tothe member 58 of housing 6 engages the washers at the ends of springs 11'. .pressure plate 14 thus may be transmitted to the intermediate pressure plate 9 by way of the preloaded springs 11 `and thus close the clutch l0. The purpose of the pressure plate 14 is as above stated, and to press upon a driven element of a third clutch l5. After the clutch l0 has closed under advance of the pressure plates 14 by its action through the spring 11 and pressure plate 9, the springs 11 further compress from their preloaded condition and permit further advance of the plate 14 after the advance'of p1ate 9 has closed clutch 10, thus to permit the plate 14 to press against the driven member of'clutch 15, and thus closing the same.

In order to operate the clutch plate 14 to' control clutches 10 and 15, levers 16 are provided hav-A ing outer fulcrums in a shoulder 13 Aof an adjusting ring 63 and operating upon said plate 14 at a fulcrum 207. 'Ihe levers 16 reach inwar and are operable` by endwise motion of a fork 18 which operates a throw-in bearing 17. The

63 maybe adjusted longitudinally by Any movement of the ing cap screws 57 which yhold the same and K ing the ring 63,' the sloping slots 209 therein controlling the longitudinal movement (Figs. 5 and 6). Openings 208 through the rings 13,levers 16 and clutch plate 14 provide access for adjusting the preloading heads 62 so that the functions hereinafter set forth may be laccomplished.

V'Ihe driven element of clutch 15 is splined` to a sleeve 211 which is borne on bearings 213 around said sleeve 201. The sleeve 211 carries at its rearward end a gear 20 which is held between thrust bearings 19.

The gear 20 meshes with gear 42 which has an integral extension 212 supported by bearings 70 on a counter shaft 52. Driving rings 67 and 47 are splined tothe extension 212 of gear 442 and e. split ring 46 is used for locatingr rings 67 and 47 -(see also Fig. 2).

The gear 21 is meshed with a gear44, said gear 44 being rotatable on the extension 212 of gear 42.l .A spring ring 43 reacting betweengears 42 and 44 functions as an anti-shock device.

A sleeve 49 carried on bearings 21,5 on the sleeve 2:12 is integrally formed with a gear 66 which meshes with said gear 31. r

The ring 67 is driven by the gear 44 through an overrunning clutch, designated in general by ,numeral 45. The sleeve 49 is driven from the closed clutch 48 so as to drive gears 66 and 31.

When there is no overrunning, the gear 44 drives the ring 67 by way of clutch 45 and thus the sleeve 49 is driven through sleeve 212,`ring` 47 and then closed clutch 48. Thus it is clear that the sleeve 49 may be driven either from the gear 42 or the gear 44 depending whether or not overrunning conditions exist. 4

In order that the above description may be made clearer, I have shown lin Figs. 2 and 3 the working details of the clutches, 45 and 48. Clutches of this nature have been described in Patent 1,849,212, issued March 15, 1932, to A. Winther. The clutch shown in Fig. 2 is for example, lclutch 45 and consists of wedge members 69 attached to the drivingmember `(gear 44,

or ring 47, as the case may be). These wedge members. have undercut portions which receive undercut wedge members 217 of an intermediate ring 219, thelatten carrying serrations 221 cooperating withsei-rations 223 on the driven member (either ring 67 or sleeve 49, depending upon the clutch under consideration) When the driving member such as gear 44 turns over (see the arrow in Fig. 2) the wedge members 69 wedge against the wedge members 217, --thua driving the intermediate ring 219 toy the right and causing the serrations 22l.",and 223 to cooperate so that the driven' member 67 is driven. Should the driven member 67 overrun the driving member 44 in the same direction, vthe undercut wedge'l members 217 -:move into the wedge memers 6 9 and cause the intermediate ring219 to drawn to the left sothat the serrations 221^70 and l223 are drawn out of engagement. To assure 4complete clearance of the serratio's 221 and 223,

a frictional spring ring 225 is arranged between v ,the xed extension 227 of the driven member 67 and the said intermediate ring 219, which,l as

-1,9ae,oa7 overrunning continues, continuesl to frictionally Y carry the intermediate ring 219 definitely out of engagement so 'that the serrations 221 and 223 definitely clear without chattering. The spring is fastened as at 206 to the intermediate member 219 and frictionally vcontacts the extension 227. The egtension is'fast on the driven element 67. ItY understood that this is the class of clutch which ispreferred at 45 and 48, but that the closed clutch having the least gear lspeed reductionor mechanical advantage to'shaft 36 will do thedriv'ing and otherclutches whether open or closed will not effect movement `of the car. In this transmission clutches can be opened andv closed without discrimination. Further, when operating in direct drive there is normally no relative motion between clutch friction plates and the driving surfacesivf` other overrunning clutches maybensed-if the Lowmdligi 5) is effectedrwhenrv 10 same be designedtogiuivalently vsmooth action. Further details thereof may be found in said patent.

Cluch 48 includes a variation which consists in providing in the intermediate ring 219 openings 228 for receiving locking fingers of a lock clutch 64 which pass through openings Vin the sleeve-49. When the locking fingers of clutch 64 are pushed to the left, they will enter the openings -228 and thus lock the-V clutch 48V `so that the ring 47 is locked with respect to the sleevev 49. The purpose of this 'will be shown.

In order that the locking fingers of clutch 6 may be moved, a sliding yoke 229 is provided on sleeve 49 and operable Iby means of dogs 75 on a lever 74 pivoted to the housing at 53 and operated from above by a rod 76 passing through the end of said lever 74 (Figs. 1 and 8) The lever 74 is normally pressed to a shoulder 231 of said rod 76 by spring 77 reacting from adjusting nuts 233 on the rod 76. "I'he details of this feature are shown in Fig- 8. The fingers of clutch 64 pass vthrough the openings 226 in the sleeve 49, as well as said openings 228. The ring 230 which holds together the' fingers of clutch 64 bears at 224.

Figs. 1 and 8 also show an interlock between shaft and said lever 74. The interlock comprises a nger 73 extending from said fork 26.

' This interlock is so arranged that When the shaft 25 is turned clockwise (Figs. l and 8) and the high gear clutch 4 thus permitted to close, the locking clutch fingers 64 must rst be Withdrawn from locking position in the recesses 228. This is accomplished by th'e iinger 73 riding upon a support 235 on the lever 74 as long as the lever 74 is in counterclockwise position (Fig. 8) andslipping from said. support when the lever 74 isy in clockwise position (Fig. 1). Thus, the jaw clutch(r the take-up spring 77 permits of pulling over the rod 76 without moving the lever 74, as when it is interfered with by thenger 73. Then as soon as thel interference ceases the spring 77 drives the lever 74 to counterclockwise position. The rod 76 in the embodiment of the invention under present Yconsiderationis manually operated. In Fig. 4 is shown a reversing gear 237 which constantly meshes'with the gear 65 which forms a part of the -sleeve 49.A Said gear 237 is adapted to be engaged by gear 29 'when said gear 29I is moved forwardly, whereby reverse operation may be ee'cted (s ee also Fig. 7).

follows:

When gear 29 engages with teeth 30 the 'trans- ,l mission is prepared for. forward operation. Then any or all 'friction clutches 4, 10, or 15 may be closed for driving at will with suitable manual or automatic attachments, an example of which will be laterdescribed.l ,Under these conditions The operation of the mechanical elements is Springs 11`of which theref'are several are pre` loaded under the vheads 62. Springs 8 arethe separating means for both clutches 10 and 15.

Thus with low gear clutch 10 closed and the high and intermediate gear clutches 4 and 15 open, the drive will be from flange 1, through case 6, 58, diaphragm 7 and pressure plate 9 clamping' on lthe driven disc of clutch 10, splined hub 59, tube 201, gear 21, gear 44, overrunning clutch 45,v tube 212, ring 47, overrunning clutch 48 (whether` locked or unlocked by the ngers 64), sleeve K49, gear 66, gear 3l, quill 36 'and drive'niiange37.

Intermediate speed is effected (Fig. 6) when high speed clutch 4 (not shown in Fig. 6) is openl and bearing 17 is advanced beyond low speed posi- -tion a suillcient distance to compress springs 11 and engage pressure plate 14 with intermediate gear clutch 15. At this time iowgear clutch 1o -is closed (not shown in Fig. 6). When intermediate gear clutch 15 is closed gear 20 will adf Vance gear 42 to 'a higher relative rotation than that o f gear 44`-causing overrunning clutch 45 to release. Driven.ring 67 at this time overruns gear 44. Thus the intermediate gear train runs ahead of the low speed train and takes up the load.

Under intermediate or second speed conditions `as shown in Fig. 6 the drive comprises flange 1, casing parts 6 and 58 including the second dia' .phragm 203. the pressure plate 14 acting with 203 as a clamp upon the .driven member of clutch' 15, splined hub60, tubular member 211, gear-.20,

gear 42, tubular member 212, formed therewith,

ring 47, overrunning clutch 48, sleeve 49,V gear 66, gear 31, quill 36 and driven flange 37.

To connect direct speed from low or intermediate speeds, the high'speed .clutch 4 is closed by releasing the describedholding means, against levers 3, namely parts 38, 41, 23, 24, 26, 25 (Fig. 1) .1

As the direct high speed clutch4 closesv underV action of springs 2, gear 29 in crown contact with wheeling clutch 2404s shown between the gears 30 and the gear 31 on quill 36.4 This overrunningclutch 240 of the same-construction as Aoverrunning clutches and-48, like numerals designating like vdetails as indicated in Figs. Zand 3.

It. will bel seen in this connection thatgear 30 instead of as ,sin Fig. 1 being integral with the quill 36,'is separate therefrom and only drives Vthe.

quill through the overrunning clutch 240. When.

4 there is a tendency for the driven quill 36 to drive the intermediate quin a9 through une gear 29,

memberY 241 is fixed to the quill 36. It is formed as an internal-*gear 243 whicheis adapted' to .be Y. R

4 clutch 48`While the jaws of the clutch 64 are reached by movement of the gear'29 and lever 27 -t`o position a shown in Fig. 7, and thus function in high gear drive as the equival nt of the construction shown in Fig. 1, that i non-free-wheelig.

It will be understood that in Fig. 1, for simplicity *and completeness of ydescription of all forms, no

free-wheeling unit is'shownlat this point. It will be noted in connection with Figs. 5 and 6 that thev gear 31 has been provided with means for accommodating the free-wheeling clutch 240. If desired, the entirely non-frewheeling arrangement shown at this point -in Fig. 1 may` be used. v

Referring again to Fig. 7, when the lever 27 is in position a, as stated, no free-wheeling is effected between the wheels of the vehicle and the engine. When the lever 27 is in `position b freewheeling is eiected between the rear wheels and the engine,'the'drive otherwise functioning in the manner above described. When the lever 27 is `in position c, it is in neutral, and high gear operation can be effected whenever desired, and also` low or intermediate gear-operation. When the lever 27 is inposition d, the gear 29 meshes into the reverse gear train as shown in'Fig. 4 and reverse operation may be effected.

It will now be seen that releasing low intermediate gear clutches 10 and 15 will not and 15 are closed and high gear clutch 4 is in- -termittently opened vand closed, overrunning 'clutch 48. will alternately open and close automatically. Then the'transmission will alternate betweenhigh gear and intermediate gear. When automatically, lthereby changing between inter-v low gear clutch 10 is closed and high and intermediate ge'ar clutches 4 and 15 vare open the transmission is in low and clutches 45 and 48 are both` closed. 4Now inthe intermediate gear;

clutch 15 is alternately opened and closed, overrunning clutch 45 will alternately open and close mallv. Forfengine braking they are locked and due to the interlock the high speed power clutch `4 must be open.

Referring to Fig. 1, there are shown Aat numerals 33, eentrifugally operated weights borne on a shaft 305 and having-ngers-307 for en- A gaging a sleeve 309 located on said quill 36. The -sleeve 309 is normally urgedto the left byspring 54. It is flanged 'as shown at v311 to cooperate Awith a clevis member 313 gf a lever clamped to across operating shaft 35.

For yautomatic operation governor spring 54 is preloaded-to a predetermined value and caliv.brated to act with the,centrifugal`weights 33 to engage vor 'prepare a preselector (to be described) on shaft 125 by means of a bushing 129.

for engaging certain gear trains at predetermined speeds of the vehicle.

When an operating lever or .rod 306 (which may ,extend by suitable means to the drivers position) is set for intermediate gear, locking spring 77 is preloaded against fork 74 which tends to press the jaw clutch lingers 64 into the opnings 228 in the ring 219 of the overrunning biased so they will not engage under one relative direction of rotation (see Fig. 8), they will drop into engagement with ring 46 when rotating speeds between ring 219 of the clutch 48 and ngers of the member 64 are synchronized.

10 and 15 which are then open. For reverse, clutch 4 is manually operated in the conventional manner'with a foot operated clutch pedal connected to the cross shaft 25. The desired velocity drop is obtained through the train 29, 237, 65, 66, 31 (Figs.'1 and 4).

As previously stated this transmission can' be :automatically operated by means of vacuum,

air pressure, hydraulic and/or electric control. For this purpose an exemplary electric control is shown in Figs. 9 and 10. The control hereinafter described is one which meets the most exacting requirements for automatic operation.

The means used lfor operating each of the clutches of the transmission is a small electromagnetic clutch driven from the camshaft, or the like, of the prime mover of the vehicle. 'Its description is as follows (Fig. 9) l:

A worm 126 is in operative connection with the prime mover such as on the camshaft. Worm wheel 127 is keyed to a cross shaft 125 which in turn is keyed to a multiple pole magnet 122 carrying exciting coils 121. Brushes BR ride upon a slip ring 128 whereby exciting currentis carried to coil121 and then grounded. A steel drum 123 forms the return pathfor the magnetic iiux from alternate north and `south poles of the electro-magnet 122. The drum 123 is journalled The drum 123 is formed with e. cable groove for a clutch operating, cable ZS. v

When the magnet 122 is rotated in reference to drum 123 and current is fed to coils 121,'a rotative magnetic `drag is set up causing drum 123 to tend to rotate with the magnet.

The turning effort imposed upon drum 123 will withinv practical limits be proportional to the slip 'taking place between drum 123 and magnets 122.

in turn effects control of -clutches 10, 15, through bearing 17 and fork 18.

overrunning f clutches 45 and 48 will engage and rotate clutches As long as the resistance against movement of Y v the drum 123 is low, as when the respective clutchv 1,986,037 A4,710 or 15 is nrst startingtobeclosed; theAmag'- I netic drag applies a; relatively high angular velocity to the respective drum 123 and thus the clutch approaches closing position at a rapid rate. However, as soon as the clutch begins to-beclamped shut, a higllresisjancedssetupagainst rotation fofitlie'res'pective drum 123. The relative slip between the drum 123 and its magnet 122 is thus high, and the subsequent closing of the clutch is more gradual, thus preventing grabbing. The result is that there is no delay in clutch actuation inasmuch as the rst, non-grabbing movement is fast, but the last gripping movement 'is' slower and very smooth.

A plurality of the relays shown in Fig'. 9 are used, one for each power clutch 4, 10 and 15, the same being lettered PC, PO and PF in Fig. 10.

'I'he restoring springs 8 and 11 in the clutches 10 and 15 will returnpables. ZS and YS to their .initial'position's asv'quickly as lthe magnets 122 are de-energized by cutting off exciting current. The

vcable XS for clutch 4 is also returned by action of the restoring springs 2. Springs 8 and 11 tend to open their clutches 10 and 15 upon restoration but springs 2 tend to close their clutch- 4. Likewise cables ZS and YS tend to close their clutches when tensioned while cable XS tends to open its clutch when tensioned.

The above electro-magnetic actuating means have been found to be atthe present time superior to hydraulic, vacuum or air pressure control for the operation of transmission clutches. Some of the reasons for the above are the inherent fast and then slow action above described as a characteristic of this device for closing action, the constancy of repeated similar actions, and the fact that a rapid speeding of the prime mover will` cause a relatively rapid clutch engagement and Vice versa. This electro-magnetic drag type of clutch actuating relay device A(liig. 9) has proved to have the correct effort curve for clutch operation. When hydraulic and/ or pneumatic controls are properlydeveloped, they also may be used.

The transmission control per se, shown in Fig. 10 taken broadly consists of ve primary units, namely 1) accelerator switch, J, K, L; (2) power relays, PC, PF, PO for high, second and low gears; (3) .acceleration pendulum OC; (.4) governor BS;

and (5,) relay switch W, X, Y and Z. Secondarily,v

there is the ignition switch SW, switch R for automatically opening circuits for -neutral and reverse positions, governor switches O and P and a oneway switch TS for releasing high gear when pedal FS is depressed.

Pendulum OC comprises an acceleration detent whose function is to regulate the engagement of second or intermediate speed gear trains in the' transmission. The pendulum OC is aifected byf acceleration due to increasing velocity or grade.

Position OB of the pendulum will open switch OXY thereby preventing second speed from becoming operative until switch points PB are will be particularized.

Relay switches W, X, Y, and ing various lineswith a positive snap h action making for denit on or oiI positions.

Accelerator pedal switchJ, K, L, having a return 'cording to engine throttle positions. l

Switch TS is spring loaded as indicated at SS and is forced open against a stop RS. When pedal spring WS gives partial transmission control ac- FS is moved rOmcIOSed position HS to open position GS, dog US whichis normally held clockwise 4 against a stop 175 by a spring A176 will ride over an extension VS on switch lever 4IS in-such a manner closed, as

Z are for connect-f as to"'engagecontact M momentarily to vopera relay coil X through line 119, clcc'ng switch V and energizing power relaygPC` Vthrough lines 101, swncliSWJine102switch R, lines 103, 106, switch V,v and lines 112, 110, thereby holding the high.

'gear of the transmission in disengaged position against springs 2. `When pedal FS moves back from position GS to HS, dog US will deiiect over the extension VS on TS so that no contact with M will be made. yReturn of pedal 177 thereon to open contacts N.

The governor BS actuates contacts P, 0, and P .B thereby partially controlling transmission operation from vehicle speed, as will be further shown.` The levers CS and PA of the said switch .contacts P, Oand PB arearticulated by a connecting rod PD. The governor is Vshown conventionally in Fig. 10.

The hand lever QS'is manually operated bythe' .vehicle driver. When set in forward position,

FS causes lug,-

full vautomatic action of the transmissionin alla` forward speeds is effected. When set to neutral,

the transmission is in neutral position and allv control circuits are open. When set inreverse position, the transmission is in position to reverse by the conventional operation of clutch pedal FS- type of automotivel Y as in the common and known transmission.

Lever PS actuates clutch throw-in bearing 17 through fork 18 for operation of the low and 'second" speed clutches 15 and 10 and is controlled by combinationaction of magneticl clutches PO and PF. Lever DSactuates cross shaft 25 for manipulation oi'V the high speed clutch 4in the transmission. lIt is controlled by the separate magnetic clutchPC.

The operation of the transmission and control is as follows:

Assume that the engine is running andhlever QS isiniorward position. Governor 13S is collapsed dueto the initial loading'of spring 54. Contacts P, by momentary grounding through lever CS will have actuated magnets X and- Y (see lines11'7 and 118, switches T, U, line 103, switch R, line 102,l switch SW and line 101) thereby closingv switch V and opening all other control BB pivot at BE and BC respectively. Control witch V have energized power relay PC hrough lines 112 and 110 thereby opening high gear clutch 4. Y

There being no circuit through power relays PF and. PO, the transmission vis inoperative,A

D. Then when-'K is depressed to line C, it contact F, energizing p ower relay PO through'line 108 forlow speed operation. It will also energize the switch point at S through wire 120. Relay PO will close the intermediate speedclutch 10 in the transmission by moving barV OS upV against stop LS and thejvehicle accelerate in low speed.

When eight miles or some such predetermined vehicle speed is reached, governor BS will move cmtzictm. AS away from contacts P and ground switches on levers BD and BB. Levers BD and and clutches, 10 and 15 will e However, .the instant contact at G, 'H, and J is caliygeilects closure high speed positionI at any the circuit permitting the clutch -low gear, and

This groundingy of contacts PP low speed is over, vimmediately go to second speed wm energize migztnereby-ciesmgeoniaetsfwahoutggenugn.

S, and T.

It the vehicle is headed down a grade sufiicient to overcome the swing of pendulum OC due to car acceleration, the circuit switch S through 109,A OX, line 322 to second speed power relay clutch PF. Energizing PF will cause bar OS to be moved against stop MS pivoting at KS. Clutch relays'PF and PO now being both energized, will hold bar OS against stops LS and MS, advancing lever PS to'second speed position both be closed.

On the other hand, should the car be on nearly level ground, or going up grade, pendulum 'OC will be near position OB whereby contacts OX will be open, preventing engagement of second speed.

As the vehicle continues to accelerate in low speed gear, the value of the acceleration will decrease, gradually advancing pendulum .OC to near point OA, whence contact OX will be made and the closing for second speed will be effected as described. i

Should the vehicle continue on a grade suicient tohold pendulum OC near position OB until a relatively high vehicle speed is reached, the governor BS will advance s tch lever PA to contact PB when switch OX will be shuntedv by wires 323, 321i and 322, thus and' closing the circuit foi-,second speed relay PF.

Duringthe above automatic maneuvering,- contacts K and J may move fromposition C to position A without affecting any of the functions. At a predetermined vehicle speed of said twenty-- ve miles per hour, 0, thereby grounding the magnet coil'W (see wire 115) and opening contact V. If the throttle leverr L is moved suiiiciently to contact G, H, by means `of J, the circuit to the power relay device PC will still be made through 103, N, 104, 112, and to relay`PC, and the high. speed ,clutch ,4 will remain open, and thus maintain drive *in second gear. Second gear will then remain operative no matter how fast the scar may travel energizing power relay PF,V

governor BS Vcontacts AS and While accel'rating, second gear picks'up the load from lowa nd high picks up the load from second, without deceleration or closing the en- Ygine throttle.

When droppingvtrom a lower lspeed gear such as from high to second or second to low, or high to low, no jeck or Vjar is felt, the engagement of the clutches being very smooth, due to the electro-magnetic characteristics of the power relays PO, PF, PC.-

- More than three speeds can be included f transmission bythe addition of more clutches,

gear trains and relay, or two only may be used.

high vspeed `gear toV a It is to be understood that the lever QSis linked to. the' shifter fork 27 through a suitable linkage L (Fig. 1). Further details of this linkage are not-included, because such are known.

In Fig. 11 is shown a modied form of circuit incorporating a change which' permits the driver to engage the transmission gears without depressing pedal FS. That is, the driver will naturally depress gas pedal L to the floor when eager to get maximum acceleration from the car. Under these conditions (Fig. 11) bar Kwill strike vspring KB. A slight pressure over normal on pedal L will depress spring KB until bar K assume's 'a position at line A where contact, between K and KE will be made, shunting switch N through wires 330, switch KF, contact KG, wire 337 to wire 103.

Thus under' these conditions depression of pedal FS is not necessary for engaging the .trans-4 mission at the start.

Switch KF opens through ernor BS at influence of the govmission will notgo into gear, even though pedal L lie-depressed suiiciently to contactK, and E. In view of the above, it wilibe seen thatv the several objects of the other. advantageous resultsI attained.- As many changes could be made in carrying so long as the throttlef opening remains greater` out the above constructions without departing than line B indicates.

broken, due to a partial closure of the throttle, to the power relay PC will be opened, spring in the high speed clutch 4 to close for high speed operation and to return pedal? FS to close position HS, whence contactN will be opened, de-energizing the entire circuit to the accelerator switch K; J, L and leaving the device in high. gear.

The advantageous operating features are as follows: Y

When the. car stops, the engine is free from load. To accelerate, the throttle needs only be opened full or nearly full and the car starts in remains in low gear until grade and acceleration rate or vehicle speed automatiior second speed operation. It remains in second speed operation so long as the throttle is full, or nearly full, open.

The operator can engage second speed from time by depressing pedal FS anddocking Jaw' clutch 64. Thus the advantage of the braking action in second speed may be' obtained down grade.

While iautomatically` in second speed, Ashould thegrade become too. steep, or the .road'become too heavy, or should the speed reduce tosay eiht miles per hour, 'the en will antenatifrom'y the scope of the Vinvention, it is intended that all matter contained in the above description or shown in-the ,accompanying drawings shall be the high speed clutch,an overnmning clutch betrain and the intermediate tween the low speed speed train, a second ovemmning clutch between vthe intermediate speed trainand the high speed train, means for locking said second overrunning clutch, and interlocking meansr associatingV said clutch locking means and 'second 'oyen-unning clutch Awhereby the second the high speed power overnmning clutch can lhigh speed clutch is open, and said high speed clutch cannot be reclosed until said second overrunning clutch is again unlocked. l 2. A transmission comprising a driving'memb'er, a driven member, a plurality of-clutches asH sociated with the driving, member,- constitutes a high-speed thev others constituting intermediate and lo'w clutches, plurality of power trains' cachan mine f only be locked when saidv and above a' predetermined speed. Hence, above such predetermined speed theitrans- Y invention are achieved and one o! which respective clutch with the drivenmember, a speed responsive member associated with the Vdriven member, means whereby the.- position of the. speed responsive means under low speed thereof results in automatically opening said high gear clutch, a throttle, and means .responsive to Vincre: se in throttle positions adapted to close the low speed clutch' during low speedof the speedfresponsivemeans.

3. A transmission comprising a drivingmember,` a driven member, a plurality ofclutches associated with the driving member,l one ol' which constitutes a high-speed clutch andthe others constituting intermediate and low speed clutches, a plurality of power vtrain each connecting a respective clutch with the driven member, a

'speed responsive member associatedl with the'- driven member, means whereby the position of the speed responsive means under low speed thereof results in'automatically opening said high gear clutch, a' throttle, means responsive to increase throttle positions adapted to close the low.

speed clutch during'low speed of the speed re-4 sponsive means, meansl for closing the interme-A diate speed clutch upon speed increase andan overrunning means between the power trains of4 the low and intermediate speed clutches'.

4. A transmission comprising a driving member, a driven-member, high, intermediate and' low speed clutches associated with the driving member, high, intermediate and low speed .power trains connecting the respectiveA clutches to the driven member, a speed responsive memberv as-.

sociated with the driven member, meansA whereby low speed positions of said speedresponsive means result in automatically -opening said high gear clutch, means. whereby higher speed positions thereof automatically closethe intermediate and .low speed clutches, .and means in said trains whereby the train having the lowest mechanical advantagebetween the driving and driven members shall be operative provided its clutch/is closed.-

5. A transmission comprising a driving mem-` ber, a driven member,` high, intermediate and low speed clutches associated with the driving `member, high, intermediate and low -speed power trains connecting the `respective clutches to the driven member, a speedresponsive member asso- A ciated with the driven member, means whereby low speed positions of said speed responsive means result in automatically opening said high gear clutch. means whereby higher speed-positions thereof automatically close the intermediate and speed power trains'connecting therespective power clutches to the driven member, a

responsive member associatedwith the driven member, means whereby low speedpomtions of said speed responsive means r'esult in automati cally opening said high speed power clutch,

meansl whereby higher speed-pomtionsthereof automatically close the intermediate and low Aspeed clutches. means in said trains whereby the train having the lowest mechanical'advan .ifi

tage between the .driving and drivenA members shall normally be operative, and throttle responsive'means adapted to enforce low speed power transmission. i

7. A transmission for an engine comprising a'4 driving member, a driven member, high, intermediate and 10W speed clutches associated with the driving member, high, intermediate and vlow speed power trains connecting the respective clutches with the driven member, overrunning clutches betweenthe low speed train and the intermediate speed train, and between the intermediate speed train and the high speed train,

speed responsive means' connected with the driven member and adapted to control all clutches to open and to relieve the engine of load at predetermined low speeds.

' 8. A transmission for an engine comprising a driving member, a 'driven member, high, intermediate'fand low speed clutches associated with. the driving member, high, intermediate and low speed power trains connecting the respective clutches ywith the driven member, overrunning clutches between the low speed trains and the intermediate speed train, and between the intermediate speed train and the high speed train,

speed responsive means connected with the driven memberand adapte'd to open all clutches andrelieve the engine of load at predetermined low speeds, a throttle, means whereby s aid throttle..when 'substantially open closes the low. speed clutch to eiect low gear operation, and means whereby grade, acceleration rate or vehicle -speed automatically and' predeterminately close .the intermediate speed clutch to effect second'speed operation while the throttle is fsubstantially open.

9. A transmission for an engine comprising a driving member, a driven member, high', intermediate and low speed clutches associated with speed power trains. connecting the respective clutches with the driven member,.'overrunnin'gv clutches Abetween-the low speed tra-in and the intermediate speed ltrain, and between the intermediate speed train andthe high speed train, speed responsive means connected with the driven member and adapted to open all clutches and relieve the engine of load at predetermined low speeds, a throttle, means whereby said throttlewhen substantially open closes the low speed clutch '-to effect low gear operation, means whereby'grade, acceleration rate or vehicle speed autothev driving member, high, intermediate and low" matically and predeterminately close the intermediate speed clutch to eiect second speed operation while the throttle is substantially open and vmeans whereby an operator may manually close the intermediate speed clutch to effect intermediate speed operation at any time afterv high speed operation is eiective.

10. 'A transmission for an engine comprising a drivingmember, Ia driven member, high, intermediate and low speed clutches associated with the driving member, high, intermediate and'low speed power trains connectingthe respective clutches with the driven member, overrurming clutches between thelow speedftrain ,and 'the intermediate speed train, and between the intermediate speed train and the high speedtrain, .speed responsive means connected with' the driven member andradapted to open all clutches to relieve the engine vof load at .predetermined .low speeds, a throttle, means whereby said throttle when substantially open closes the low` speed clutch-to eil'ect low gear operation, means wherey determined load or speedconditions.

1'1. A transmission comprising a driving member, a. driven member, high, intermediate and low speed clutches associatedgwith the driving member, high, intermediate and low speed power trains connecting the respective clutches with y 50 low gear operation, ymeans eration rate or vehicle speed automatically effectV second speed operation as long as the throttle is the driven membenoverrunning clutches between the low speed train and the intermediate speed train, and between the intermediate speed train and the high speed train, speed responsive means connected with the driven member and adapted to open all clutches to relieve the engine of load at predetermined low speeds, a throttle, and means whereby when said throttle is open said low speed clutch is closed to eect low gear operation. ,Y

12. A transmission `comprising a'driving member, a driven member, intermediate Iand'low speed clutches associated with the driving member, intermediate and low speed power trains 4connecting the respective clutches with theA driven'member, overrunning clutches between the low speed train and the intermediate speed train, a tlnot-A tle, means whereby whensaid throttle is open low gear operation is effected, means whereby grade, acceleration rate or vehicle speed automatically eect second speed operation as long as the throttleis substantially fully open, and means whereby low speed operation is again effected should the resisting torque become too great or the speed too'low.

13. A transmission comprising a driving member, a driven member, high, intermediate and low. speed clutches associated with the driving member, high, intermediate and low speed power trains connecting theA respective clutches with the. driven member, overrunning clutches between the low speed train and the 'intermediate speed train, and between the intermediate speed train and the high speed train, speed responsive means connected'with the drivenmember and adapted to relieve lofadat predetermined low speeds, a; throt-I eineansfwhexjeby opening of said throttle effects whereby grade, accel- \substantiallyfully open and under all vehicle speeds available in second gear, means'whereby low'speed operation is f again effected should the resisting torque become too ,great or the speed I 'acceleration for automatically closing and open-` 1ow,hign gear operation being automatically erfected under'predetermi'ned reduced throttle con? dltions.

14. A transmission-comprising ber, a driven member, a plurality of clutches associated with the drivingmember, one o! which 4 constitutes aV high-speed clutch and therothers .constituting an intermediate and. lowjspeed clutch, a plurality oi' powertrains connecting the respective clutches' with the driven member, a'. .speed responsivemember.- associated.v with the driven member, means whereby the positionof the speed, responsive means under low speed thereof results inl automatically opening said high4 speed clutch, a throttle, means responsive to increased lthrottle positions vi'idapted to. effect driving through the low speed clutch under said lowpeed otthe 'speed responsivemeanameans whereby Y' 75 `salvi speed responsive mean'seilects operation by.

a driving mm-j' V-tnmgof resmtsin automatically 1,9e'6,osr

; lthe intermediate speed clutch upon speed increase.

and means responsive to' acceleration forces adapted to prevent said operation by the inter'- mediate speed clutch until a predetermined decrease in acceleration .has occurred.

15. A transmission comprising a driving member, a driven member, aplurality of clutches associated with the driving member, one ofjwhich A crease throttle positions adapted to eect driving through the low speed clutch under. said low speed of the speed responsive means* by opening the intermediate speed clutch, means whereby said speed responsive means eiects closure 'of .the intermediate speed clutch upon speed increase, and

means responsive to acceleration orces adapted to prevent closure of the intermediate speed Y clutch until `a predetermined decrease in accelera- Ytion has occurred, said speed responsive means and said means responsive to throttle position beingadapted to eect closure of said high speed clutch at predetermined combinations of higher speeds and decreased throttle' position.

18. A transmission comprising a, driving mem ber, anrive'n member, a plurality of clutches associated with the driving member, one -of which cionstitutes a high-speed clutch and the others constituting intermediate and 'low speed clutches, Y

a plurality of power trains vconnecting the respective clutches with the driven member, over- 'runnin'grixeans whereby the train having the'lowest mechanical advantage and a closed' clutch may drive, and means responsive to speed and acceleration for automatically closing and opening said clutches'to automatically eect a proper me` chancal advantage.

l'Z. A transmission comprising a driving member, a driven member, a plurality of clutches associated with the driving member, one of which ebnstitutes a high-speed clutch and the others constituting intermediate and low speedkclutches,

a plurality of power trains connecting the respectiveA clutches with the driven member;

overrunning means whereby the train having thelowest mechanical .advantage and a closedv clutch may drive, means responsive to speed and fing said clutches to automatically effect :1 -proper a plurality of power trains connecting the respective clutches' with'the driven member, overrunning means whereby the train having ythe lowest 1 mechanical advantage and a' closed clutch may drive a speed responsive member associated -with zthe driven member, meansJ whereby the positionA of the speedresponsivhcansunder low speed openlngsaid'hih speed clutch, a throttle,

ve to inthe intermediate speed clutch, means whereby said speed responsive means eiects closure of the intermediate speed clutch upon speed increase,

' means responsive to acceleration. forces adapted to prevent closure of the intermediate speed clutch until a predetermined decrease in acceleration has occurred, said speed responsive means and'said means responsive to throttle position being adapted to effect closure' of said high speed clutch at predetermined combinations of higher speeds and decreased throttle position, and manuallyoperable means for vopening and closing the high speed clutch whereby intermediate speed driving may be effected at will.

19. A transmission comprising a driving member, a driven member, a plurality of clutches associated with the driving member, one of which constitutes a high-speed clutch and another of which constitutes a lower `speed clutch, a plurality of power 'trains' each connecting a respective clutch with the driven member, a speed responsive means associated withl the driven member, means whereby the position of the speed responsive means under low speed thereby results in automatically opening said high speed clutch, a throttle, and means responsive to increase in `throttle positions adapted to close the lower speed clutch during low`speed`of the speed responsive means.

20. A transmission comprising a driving member, a driven member, a plurality of clutches associated with the driving member, one of which constitutes a high-speed clutch and the others constituting intermediate and low speed clutches, a plurality of power trains each connecting a respective clutch with the driven member, a speed responsive member associated with the driven member, means whereby the position of the speed responsive means under low speed thereof results in automatically opening said high gear clutch, a throttle, means responsive to increase in throttle position adapted to close the low speed'clutch during low speed of the speed-responsive means, means for'closing the intermediate speed clutch upon speed increase, an overrunning means between the power trains of thelow and intermediate speed clutches, and overrunning means between the power trains of the high speed and intermediate speed clutches. j y 2l. A transmission comprising a driving mein ber, a driven member, a plurality of clutches associated'with the driving member, one of which constitutes a high-speed clutch kand the others constituting intermediate and low speed clutches,

a plurality of power trains each connecting a r`espective clutch. with the driven member, a speed responsive member associated with the driven member, means whereby the position of the speed responsive means under low speed thereof results in automatically opening said high gear clutch, a throttle, means responsive to increase in throttle position adapted to close the low speed clutch' during low speed of the speed responsive means,"y

means for closing the intermediate speed clutch upon speed increasaan overrunning means between the power trains of the low and intermediate speed clutches, overrunning means between the power trains of the high speed and intermediate speed clutches, and means for manually locking the overrunning means between said trains of the high speed and intermediate speed'v clutches.

22. A transmission comprising a driving member, a driven member, high, intermediate and low speed clutches associated with the"driving member, high, intermediate and low speed power trains l connecting the respective clutches to the driven member, a speed responsive member associated with the driven member, means whereby low speed positions of said speed responsive Imeans result in automatically opening said high gear clutch, throttle means adapted to effect closure of the low sed clutch, acceleration responsivelmeans adapted upon decrease of acceleration-to effect closure of the second speed clutch, and means in f said trains whereby the train having the lowest mechanical advantage between the driving and driven members shall be opera-tive provided its clutch is closed.

23. A transmission comprising a driving member, a driven member, high and low speed clutches associated with the driving member, high 'and low speed power trains connecting the respective clutches to the driven member, a speed responsive member associated with the driven member;

means whereby low speed positions of said speed responsive means automatically opens the high speed clutch, means whereby higher speed positions automatically close the low speed clutch, means in said trains whereby. the train having the lowest mechanical advantage between the driving and driven members shall be operative, and acceleration responsive means adapted to effect low speed power transmission' under otherwise relatively high speed conditions of the speed responsive means.

24. A transmission comprising a driving member, a driven member, a plurality of clutches associated with .the driving member, one of which constitutesa high-speed clutch and another of which constitutes a low speed clutch, aplurality of power trains connecting the respective clutches with the driven member, overrunning means whereby the train having the lowest mechanical advantage and a closed clutch may be driven, and means responsive to speed and acceleration for automatically closing `and opening said clutches to automatically effect a proper mechanical advantage.

ANTHONY WINTHER. MARTIN PHILLIP WINTHER. 

